Sheet feeder



E. W. BELLUCHE SHEET FEEDER Filed y 28. 1920 6 Sheets-Sheet 1 q M 14 (244/ edcycw E. w. BELLUCHE I Dec.

SHEET FEEDER Filed July 28 1920 6 sham-sheet 2 &

' Svvoewfom {g dew Myfdlare @Wcome q Dec. 25, 1923.

E. w. BE LLUCHE sHi-JET FEED-ER Filed July 2 1920 I 6 Sheets-Sheet 5 Dec. 25. 19:23.

E. W. BELLUCHE SHEET FEEDER Filed July 28, 1920 6 Sheets-Sheet v4;

' LLIL 11923 E. w; BELLUCHE SHEET FEEDER Filed July 28, 1920 6 Sheets$heet 5 I iii I J L 4 e h ,a .vIH I T 511w an FM Elmer Z a/eke Dec. 25, 1923. 1,478,374 E. W. BELLUC'HE SHEET FEEDER Filed July 28 6 Sheets-Sheet 6 (Jwu a +1 for lmewlfljelluc%e Patented Dec. 2%. i923,

" was ELMER W. BELLUCHE, F WATERTOWN, MASSACHUSETTS, ASSIGNOR TO 'GEOEGE 'B.

SWART & COMPANY, INC., OF NEW YORK, N. Y., A. CORPORATION OF YO RK.

SHEET. FEEDER.

Application filed July as,

To all whom it may concern:

Be it known. that 1, Emma W. BnLLUoHn,

a citizen of the United States, and a res1-.

dent of Vatertown, in the county of Mid- 5 dlesex and State of Massachusetts, have in- ,vented certain new and useful Improvements in Sheet Feeders, of which the following is a specification, reference being made to the'accompanying dra-wings,forminn a part thereof.

Byinvention relates to machines for feeding separate sheets to a printing press or other like machine,-a-nd I' have embodied the features of my improvements in a'sheet feeder of the type knownkas continuous feeders in which a bank or pile or feathered or fanned out sheets of paper is placed upon an upper supply table and from there cai ried about a feeding drum located at the end of the feeder to a feed board where the leading ends of the sheets are acted on by mechanisms for further separating and advancinp the individual sheets to a. conveyor mechanism which carries such sheets, one by one, to the printing press or other machine.

The objects of my invention are, among other things, to embody'in a feeder of this class certain novel features in the mechanisms employed for separating and conveying the individual sheets whereby the construction and operation are simplified and .made more effective, and also in the devices for removing the conveyor or parts ofl." the t'eedboard after the main head of the feeder has been retracted thereon so as to afford a maximum amount of space on the feedboard when it is desired to use thefeedboard of the press for feeding: the separate sheets by hand.

A further object of my invention is to provide an improved mechanismffor moving this main head of the feeder along with I the conveyor mechanism backward and forwvard in conjunction with the lifting'and lowering of the supply table whereby the use of separate sections for conveying the separate sheets on the feed-board may be dispensed with.

A further object IbciJO emliody in my feeder an improved mechanism for actuating 1920. Serial No. 399,576.

same devices likewise serve to quicken the 4 lifting act-ion of such combing rolls and-im 05' maintaining same in elevatedposition. while acting to reset the latching device's cohtrolled by the trip, .and also to liftithe v trip" out of the path of the advancing'sheet; i further object is'to provide a novel form of .gripper conveyor mechanism which will seize the separate sheets at a'state of j 1 rest and then advance them forwardlyat an accelerated speed which is thereafterre tarded to a slow uniform speedastl sheet is brought to registering. position 'to be drawn into the press, the path of the grippers being somewhat raised above the feedboard to allow air films between the sheetv and feed 'board to float" the sheet forwardly to the press over the feed board. With the above and other objects in view, my invention comprises the novel construc- 1 tion, combination and arrangement of-pa'rts to he hereinafter specifically described-{and thereafter particularly pointed-out the appended claims. @-;-.j f I i I attain the foregoing advantageon sults by the sheetrfeeder shown e,- companying drawings in which-:5. Figure .l is a d'agrammatio s de elevaltibh view of the feeder embodyingniy improvements; I I, Figure 2 is a view similar t'o Figure, with the main head drawn back and the conveyor frames raised; 1

Figure 3 is a diagrammatic plan View of parts of the feeder broken away;

Figures 4 and 5 are detail views of the center grippers while Figure-'6' is a detail view of vone'of theend ippers;

Figure7 is an enlarg fragmentary. plan,

j show ng gear and cam mechanism for op-' 3 the-mechanism to reciprocate the ugript'per carriagesand also 'to' operate the mg rolls I Figure 8 is a diagrammatic lay-out of the 5,

- I and combing-rolls;

Figure 9 is a sectional detail vlew show-' gears for operating the gripper-carriages ing means for-operating the rack attached to the'gripper carriage;

1 Figure 10 isan enlarged sectional view erating the parallel bars, raising and lower-' ing mechanism for the combing rolls and also. the resetting cams;

Figures- 12,13 and 14. are diagrammatic I ,uv iews showing the action of the gripper 1 -.parts ilrdifierent positions during the cycle ofmovements; e 'Figuresilt'v to inclusive are diagramfimatic jviews showing the operation of'varivfous (cams employed inthecombing and re [setting devices; as.

Figure 21 ing the I an"enlar ged detail sectional view showing the assembly of parts in the main head of the feeder, the head being slidable on the feed-board Figure,23 is'a detail fragmentary view showing the .triptaken on the line 23-23 of Figure 22 but on the-opposite side of the feeder; and, i

Figure 24 is an enlarged sectional end view of the cam mechanism shown more particularly in Fi re 11. Similar numera s refer to similar parts .-throu bout the several figures.

Re erring more particularly to Figures "land "2, v 24 designates the cylinder of a printinpress or other machineand 25 is the fee -bo ard mounted on the usual stanth ards 26, the feed-board 25 serving to support the -pileof sheets when the press is fed' by I -h'an'd; At the rear end of the feed-board is the drum head 27-which carries the feeding drum' 28 around which the bank of fanned out sheets is transferred by the tapes "29 passing over the upper surface of the supply table 30 upon which the bank of sheets is y I placed by the operator. The re'ar'end of .the supply table 30 is pivoted at 31 to the drum head 27 while the forward end is sup-- ported by a pair of swinging arms 32 (only one being shown) pivoted at to the table 30 and at'34x to the sideframes 35 of the main headfiG-W'hich rests 011 the feed-board 25' and islongitudina'lly slidable thereon, such a head carrying the separating andfeeding mechanisms to be hereinafter described.

Tothe rear end of the side frames 35 of the head 36 I attach the rack-bars 37 (only one being shown), these racks being similar- F'igure 11 is a face View showing the parts illustrated in Figure 10in elevation;

s a dia ammatic view show- I grippers an front stops for the sheets;

a Figure 22 is ly constructed and extending rearwardly in substantial parallelism above the feed-board 25. The rack ends passthrou h hollow 1 blocks 38 carried by brackets 39 astened to 'the drum head 27 and the cross shaft 40 journalled in the blocks 38carries the gears 41 which enmesh. with the teeth of racks 37- as shown -'in Figure 2. The shaft 40 may be rotated in either direction by the crankhandle 42 to advance or withdraw the main head 36 sliding on the feed-board 25. WVhen the head 36 is retracted by turning the crank 42 in the direction of the arrow shown in Figure 2, the arms 32 are swunginto their backward position, the supply table 30 being lifted and lowered as the arms 32 pass over the center above the head 36; then the sheet conveyor frames 43 pivoted at 44 to the main-head 36- are swung upwardly and held in elevated position by the hook 45 carried veniently' located pin 46 on the'conveyor' sheets by hand to thepre'ss.

On the other hand the conveyor frames 43 advancing devices and ready for feeding the may be readily unfastened and lowered on the feed-board 25 and the head 36 advanced 'by' 'the supply table 30 enga'gingwith a conframe 43. Such arrangement, it will be observed, enables the forward endof the feedboard 25 to be free'and clear from the sheet i by the rack and; gear mechanism just dc scribed, so as to present the feeding mecha nism in'proper position to the drop guides feeding, such main'head slidingeasily over the top surface of the feed-board 25.'

The mechanism" for separating theindividualshe'e'ts from the bank consists, of two'combing rolls each ofivhich -aets to forward one side of the top sheet until' such roll is lifted when the front edge of the sheet acts on the trip to inaugn'ratethe action of the throw-out devices for such c'ombing'roll. Each combing roll is actuatedand controlled by independent sets of actuating mechanisms, andsince these sets are duplicatesof each other instructure and action, I have only shown one set and ade scription of suchset will sufiice'to' explain the nature of my improvements in connec-f tion with such combing rolls.

Referring-more particularly to Figures 1,15 and 22, the combing. roll 47 is'carried bythe arm 48 loosely mounted on a con- 'tinuously-rotating shaft 49 U to l which the .combing roll 47 1s operatively connected by a train of gears 50 so that such comtfmg'roll 47 may be continuously rotated, The shaft 49 bevel gears arsen isrotated from the power shaft 51 which is actuated froma suitable source of power, for example,

52 and 53 shown in Fi re 7. The upper side of the arm 48 carries t e arm 54 connected to the arm 55 secured to the rock-sleeve 56 by the link 57. The rocksleeve 56 encircles the tie shaft 58 extending across the machine and is secured to the side frames 35 of the main head 36 as sh'dwn in Figures 3 and 10. The ends of the; rocksleeve 56 are-supported on the shaft, 58by is'the coil spring 65 held but is held therefrom by passing over tion shown-1n E gure- QQ-When the combing the bushings 59, only one being shown in Figure 10. Secured to the rock sleeve 56 is the toggle arm 60 pivoted to the other toggle arm 61, the outer end of which arm 61 loosely passes (32 formed .in the end of the stationary bracket 63 hung on the shaft 84 secured to the side frame 35. Emir-cling the arm 61 iu'sder compression between the block 62 by the adjustable screw block'66 on the arm 61 as shown in Figure 22. 7 Motion is imparted to the rock-sleeve 56 to raise and lower thecombing through the arms 54 and and link 57 by the action of the toggle arms and 61 the center from the upper posiroll is lowered o'ri'the bank of sheets to the lower position shown in Figure 15 when the combing roll 47 isr'aised, by the following mechanism which is shown in art in Figures 10, 11, 15, 16, 17 and 22. eferring to Fi ures 10 and 11, the end of the rock-sleeve 56 as the rock arm 67 mounted thereon and this arm 67 carries the pawl 68 which is constantly being forced into its lowered engaging position with the continuously rotating ratchet 69 by the coil spring 70 devices hereinafter to be described. It will, o f course, be understood that such devices are duplicated on; the other side of the machine. The ratchet 69 is secured to the gear 71 journalled on the shaft 58 by the pin'72,and is rotated through the gear 73 secured to the constantly rotating camshaft 74 (shown in Figure 3).

' Motion is imparted to the shaft 74 by the cam gear 75, idler gear 76 and pinion 77 secured to the combing roll shaft 49 as shown irjfliigures 1, 7 and 8.

' Y ,Refc'rring'to Figures 16, 1'7, 22 and 23, thc

Outer end of the pawl 68 carries lhc'rollcr 78 at i one sidqjsuch be engaged curvcd end roller being adapted to by cam fat-c 79 of ,the upper 80 of the latch lever 81 pivoted at- 82 to hold the pawl 68 out of engagement with its ratchet 69 gasshown in -Figurc 21 .when the? combing roll 47 is lowered on the bankas shown in ,Figu1-e 22. The upper-end "80 carries the cam roller 83 which is engaged by the cam 84 secured to the gear 71 (see Fig. 1O), this cam 84 being suitably timed to raise the cam face 79 to keep the pawl 68 out from the press through the through the hollow blockv roll 47 i of engagement with the ratchet'69 while the toggle arms are being broken over center to lower the combing roll. The roll 85 located between the ratchet 69 and cam 84 prevents the latch lever from contacting with the rotating cam 84. At its lowerend the latch lever 81 carries the latch block 88 which is designed to engage with the latch 87 mounted on the collar 88 secured to the oscillating shaft 89 journalled in the bracket 99 hiounted on the tie rod 91 secured to the side frames 35 as shown in Figure 23. The shaft 89 has the trip finger 93 adjustably secured thereon by the nut 94, the lower end of the finger 93 being preferably fork-shaped with the ends passing between suitable longitudinal) slots 96 formed, in the tongues 97 secured to the feed-hoard 25 and slightly elevated above the plane of the feed-board; the top r0d'98 is arranged above the tongues97 such rod being attached to the bracket 99 adjustably secured to the rod 91, as shown in Figure 22, and serving'to guide the leading edges of the advancing sheets against the trip finger 93. In Figure 22 I have engagement with the latch block 86 and the combing roll lowered with the rollers 78 riding on middle portion of the cam face 79 and the pawl 68 held out of engagement with the ratchet (39; in Figures 15, 16 and 24, I have illustrated the latch engagement as broken by the sheet (shown in dotted lines in Figure 1G) striking the finger 93 and loworing the latch 87 out of engagement with the latch block 86, the pawl 68 causing latch lever 81 to swing to carry cam face 79 to the i right and from under the pawl roller 78 which is lowered whereby the pawl (58 is pressed downwardly by the spring 70. The pawl (38 at once engages with the teeth of the ratchet 69 which is continuously rotated as licrcinbcfore described in a clockwise direc- -the high part 101 of the cam face 79 of the latch lever 81.

shown the latch 87 in The mechanism for lifting the trip-linger 93 and resetting the latch after the top sheet has'becn advanced beyond the zone of the trip finger 93 and the combing roll is lifted is shown in part in Figures 15, '18, 19, 20 and 22, and comprises the cam arm 102 mounted .on therock-sleeve 56, the arm 192 being oscillated by the rock lever 103 connected to the arm 102 by the link 10st. The other end 105 of the rock lever 103 carries the cam roller 106 which engages with the constantly rotating earn 107 mounted on the cam shaft 74. When the roller 106 is in contact with the dwell of the cam 107 as shown'in Figure 19, the cam arm 102 presses on the roller 108 carried the arni 109 mounted on the collar 110 which carries the spring a'rm 111. The

depending'arm 112 passes below and to the left of the trip bar 100 as shown .in Figures 16 and 18, and thereby lifts the trip finger out of range of the passing sheetas shown in dotted lines in. Figure 16, the latch 87 being depressed to clear the latch block 86 when roller 106 is forced against the outer surface 114; of the face cam which swings the rock arm 67 to -the left thereby moving the cam arm 102 out of engagement with the roller 108 and the spring 115 raises the arm 109 againstthe step 116 which allows the finger 93V to resume its lower position'while resetting the latch, and sinmltaneously' causes the pawl roller 78 to ride down on the cam face 79 out-of engagement with the ratchet 69. By the foregoing mechanisms the combing roll is accurately controlled in all parts of its cycle while in this cycle of operation for. the .combing rolls, I have embodied a positive I mechanism for resetting the latch 'whilethe combing rollis being lowered into engagement' of the bank ofsheets when the rock sleeve. 56rotates in an anticlockwise direction by the cam-actuated mechanism shown more particularly in Figures 19 and 20,-the breaking of the toggle over center in the intel-mediate stages of the lowering and raising of the combing rolls serving-to quicken the action of the combers while the force of the I toggle spring 65 exerts an advantageous vof the sheet while the end pressure on the combing rolls when lowered on the bank, as in Figure 22. After the sheet has been combed and separated from the bank and passed over the slotted tongues 97 and beyond the trip iingcrs 93, I have embodied a novel form of gripper conveyor mechanism which selzes the leading edges of the sheets and carries them forwardly against the front stops uni il taken by the grippers on the cylinder of the press or other like machine. These grippers are carried on a reciprocating car-ria e over the feed-board 25' and I have prefer: ly ar 1 ranged two sets of grippers on either side of the feeder, each set comprising a center gripper adapted to seize the middle portion gripper grasps the sheet near its side margin as shown in Figure 21. As each set of grippers and their operating mechanismsare duplicates of each other in construction and p'peration, a description of one set u ill be sufficient.

jaw 129 on the shaft 128 (only three being shown in Figure 3) which are adjustably secured'to the shaft 118 by screwmuts 122 so as to set. same properly with reference to the width of the sheet and the drop guides of the press. The rock shafts 123 and 124 are journalled in'the brackets 1 20 to actuate the grippers and operatingdevices now to be described. Figures 4, 5 and 6 show the gripper construction and the mechanisms to close and open same in suitably timed relation to seize and release the sheet. As shown in-Figure 21 the two center grippers have a heavy and light spring structure (also shown in- Figs. 4 and 5), while the end grippershave only a heavy spring embodied therein as shown in detail in Figure 6. Referring to Figs. 4

and '5, the frame 121 carriesthe arm 125 to which is pivoted at'126 the'roek-arm 127.

On the outer end of the arm-127 is securedthe cross shaft 128 to which is pivoted the rearwardly extending upper-gripper jaw 129 in the form of a fiat with the upright arm 130 in engagement with the slotted end 131 of the rod 132 by the pin 133 passing through the slot 131 and the ends of thearm 130 as shown in Figures 4 and 5. The-lower gripper jaw 134'is in the form of a plate adapted to coact with the upper movablejaw 129, the jaw'134-being secured to the arm 127. The coil spring 135 surrounds the rod 132 between the slotted end 131 and the hollow block 136 journalled on the arm 137 secured" to the collar 138 on the shaft 124, the force of the spring being capable of adjustment by the screws 139 carried by the end of the rod 132 projecting through the block 136. Secured to the collar 140 which snpports the upper is'the light torsional spring 141 pinned to the shaft 128, the tension of the spring111 being notso heavy as that of the spring 135, both springs in the center grippers acting to press the uppen'gri'pper jaw 129 on the jaw 134; To ift and lower the grippers the bracket 142 on the arm 127 is connected to the rock arm rearwardly over'fthe shaft 124 and is carrie plate, and provided by the collar 145 "secured about the rock shaft 123 as shownin Figure 3. "The end grippers (shown' in Figure 6)- arev constructed in the same manner as, the center grippers just described only 141 is omittedand the rod;

the light spring 132'is pivotally f and the' cam gear 75 is rotated in an anticlockwise-direction by idler gear 76, pinion 77 and shaft 49 as heretofore described. The ca '{gear 7 5 carries the cam roller 146 mofintedon the pin 147 secured to the side o'f 'th ge'ar 75 as shown in Fig the 'roller'14'6e'ngaging with a cam slot 148 formed in the Scotch yoke 149 slidably carrie' "by "the bar 150 secured to the side fraflis of the head 36 by the bolt 151 and shaft 152. Secured to the yoke 149 is the reciprocating rack 153 which engages withthe gear 154 journalled on the shaft- 152; the gear 155 is journalled to the shaft 152 and is compounded, with the gear 154, the gear 155 meshing with the gear 156 which issecured to the shaft 157. The gears 158 securedto the shaft 157 enmesh with'the sliding racks 159 which are secured to the gripper carriage 117 by the pin 160.

By thismechanism in connection with the roller 146 passing through the cam slot 148 as'the gear 7 51s rotated the carriage 117, when'brought to its most rearward position adjacent the trip fin er 93,-is started from a fstate of restin its f orward direction at an accelerated speed which'is thereafter retarded toa slow uniform speed whenthe carriage reaches the end of its forwardtravel with the advanced sheetbrought down to the stops arranged over thecylinder' 24 0f the press.

The two sets of grippers are opened at the beginning of the cycle of movement and lowered close to the trip finger 93 to seize the sheet which lies on the slotted tongues 97 and raise and convey same forwardly to the press wl'ier'e the, grippers are lowered and the outer grippers opened while the center" grippers slide on the sheet which has been brought to the stops over the press cylinder 8 241 positive means is provided to open the grippers as against the tension of the heavy spring 135 for both sets of grippers,

but the JflWS'Of the center grippers are always lightly closed by the light spring 141 I as the sheet .is registered against thestops,

. movement raised above the plane of travel for the such center grippers sliding over the front margin of the sheets'to hold stance against thestops without buckling or rebound as might occur should all the gripper-s release the sheet as soon as latter reached the stops.

1 Referring more particularly to Figures 12, 13 14and 15,:Figure 12 shows the gripper carriage 117 at the end ofv its forward with "the. grippers opened and The-conveyor frames 43 support on the end of the rock arm 165 secured to the shaft 124 journalled in the brackets 120 rides on the top ofthe bar 161 throughthe action of'the spring 165. When the roller 164 falls into the depression-163 toward the end of the forward stroke the 211111 137 is moved to-.

ward the right which relieves the tension of the heavy spring 135 on the upper jaw, and positively opens the end grippers shown in Fig. 6, but through the slotted end 131 in the rod 132 the heavy spring pressure is only relieved from the center set of grippers the jaws of which remain closed through the tension of the light spring 141. At the end of the forward stroke the roller 167 carried on the end of the rock-arm 168 strikes the projecting pin 169 mounted on the upright bracket 170 attached to the end of the conveyor frame 43 whichrocks the arm 168 rearwardly and lifts the rock-arm 143 thereby raising the grippers as shown in Figure 12. The rock-shaft 123 also carries the projecting arm 171 extending forwardly and on the end of the arm 171 is the roller 172 which is adapted to rest in the shoulder 173 formed inthe spring arm 174 pivoted at 17 5 in the brackbackward stroke when the grippers are retract'ed to seize and forward the succeeding sheet.

The grippers are depressed from their elevated position and opened to seize the leading edge of the sheet as it lies on theslotted tongues 97 and then closed and raised to carry the sheet forwardly over the feed board 25 whereby an air film is formed between the sheet and feed-board to float the advancing-sheet tothe press-cylinder 24 by the following mechanism: Referring to Fi urcs 3, 10, 11, 13, 14 and 15 and particularfy to Figures 10, 11,, 13 and 15, the gear 71 on the gear side of the machine has secured thereto the cam 177 which constantly rp 'es with the gear 71 through the mechamsm heretofore described. The rock lever 17 8 is pivoted at 179 on side frame 35 having the cam roller 180 riding on the cam 177. The lower arm 181 of the lever 178 has pivoted thereto the parallel bar 182 which is also supported by the pivoted link 183 as shown in Figures 1'3 and 14. The arm 171 carries the roller 184 which is adapted to ride I on the b'a IrC182 when the gripperharri'age 117 is retracted. Whenthe cam roller 180 is moved into the drop of .the cam=17 7 by the weight of the arm l71"and grippers on the bar 182 after the roller 185 onthe arm '174' is brought against thec'am block 186 mounted on the conveyorframe 43 as shown in Figs. 13 and14, the roller 172 is disen- 'gaged. from the. shoulder 173 which allows the roller 184 to rest on the bar 182 and the grippers are then lowered so as to seize the combed-out sheet. resting on the tongues 97.

' Referring" to Figures 3, 10, 11, 15, 22 and machine (the upper side in Fig. 3) is roframe 35 carries the cam roller 190 riding on 193 as shown in the cam 187. The lower arm 191 of'thelever' 188 has pivoted thereto the parallel bar 192.

which is also supported by the pivoted link bar 192 when the gripper carriage is retracted. When the cam roller 190 is moved into the drop 193 of the cam 187, the bar 192 is quickly lowered by the spring-pressed arm 165 which opens the jaws of all the grippers, the drop 193 bein sufficient not onlyto take up the length 0 the slot 131 in the rod 132 but also'to openthe jaws of the center grippersagainst the tension of the light spring-14L This opening of the gripper jaws occurs just before the gripper carriage 117 reaches the end of the rearward stroke so as to readily 'seizethe leading edge-0f the sheet lyingx on the tongues 97.

fter the grippers ave seized the sheet, the carriage 117 i's advanced and the grippet's raised by the lifting of the bar 182. to substantiall the 'levelof thestationary cam "bar'162to a low the roller 1.84 to ride on the top of thebar 162 as the carriage and grippers forward the sheet over the 'feed-board 25 the elevation of the grippers being preferr ably such as to allow an air s ape or film" ,between the conveyed sheet an feed-board.

As the sheet is ending its yf orward move-'1 ment and its speed is being-retarded to a slow uniform rate, it is advantageous to lower the; leading edge to make proper con-J.

tact with the stops orldrop guides 14 of the press. To accomplish this-I [rave formed the inclined or cam-shaped track 195 on the bar 162 which track. allows the roller'184 to descend and gradually lower the grippers as shown in Figure 12,.tlie? path of the sheet being shown in dotted lines. The

' the two center 1 two sets of grippers (both end and center) aline the sheet against the stops 194 as shown in Figure- 21, ,and' the tension of theheavy spring 135 is relieved which positively opens the two end grippers but leaves the jaws of ippers closed through 'the tensionof the ight spring 141, the center igure 22; The roller '164. on the. spring-pressed arm 165 rides on thethe-feed-boar head,'and means to advance and withdraw ing and lowering the supply table over said-. 'inain head and feed-board.

head slidably supported onthe feed-board, v, 1'15 1 v.

and supply table to advanceand.withdraw board. a

It should also be noted that thegrippeg,

carriage 1.17 and gripper operating-devices may be retracted within'the heafd 3(iby 'riding on the parallel bars 182 and 192, as shown 'in Figure 14, leaving the conveyor frames 43 free to be swung'upwardly and secured to the upper supply table 30 as; shown in- Figures 2.and 14. I It will be understoodthat the sheet-feeder: herein shown and described is apreferred embodiment of; my invention and that the same may bemodified in its various. details so without departing from the principle and scope of my invention and without sacrificing'anyof it advantages.

claimas-my invention: 1.'In a sheet-feeder, a feed-board, a main '85 head slidably supported on theifeed-boa'rd,

a pivoted sup ly table superimposed above I and supported on the main the main head on the feed-board'while rais .head slidably supported on the feed-hoard, l

a pivoted "supply table superimposed above the feed-board and supported on the main head, and means comprising a rack and rotatable pinion mechanism arranged between 1 the feed-board and supply table to advance and withdraw'the main head .onthe feed-'- board while raisingand-lowering the supply table over said main head and feedf card- I- 4. In a sheet-feeder, a feed-bdard, a main;

a pivoted supply. table superimposed above the feed-board and suppor'ted'by swinging arms plvoted on the mam head', and means comprising a rack and rotatable pinion mechanism arranged between the feed-hoard the main head .on the feed-board..while raising and lowering the supply table -by a; said arms over said main head and.

5. In a sheet-feeder, a feed-board, a'niain head slidably supported on the icedboard, a pivoted supply table superimposed above the feed-board and supported on the main head, sheet conveyor frames' pivotally arranged on the'main head and adapted ,to 130 i v supply table,

swing upwardly into engagement with the and means to advance and withdraw the main head on the feed-board while raising and lowering the supply table and conveyor frames over said main head and feed-board.

6. In a sheet-feeder, a feed-board, a main head slidably supported on the feed-board, a pivoted supply table superimposed above the feed-board and supported by swinging arms pivoted on the main head, sheet conveyor frames pivotally arranged on the main head and adapted to swing upwardly into engagement with the supply table, and means to advance and withdraw the main head on the feed-board while raising and lowering the supply table by said arms and conveyor frames over said main head and feed-board;

7. In a sheet-feeder, a feed-board a main head slidably supported on the feed-board, a

, pivoted supply table superimposed above the feed-board and supported on the main head, sheet conveyor frames pivotally arranged on the main head and adapted to swing upwardly into engagement with the supply table, sheet-gripping devices operating in said conveyor frames, but movable within and carried by said main head when said frames are swung upwardly, and means to advance and withdraw the main head on the feed-board while raising and lowering the supply table and conveyor frames over said main head and feed-board.

8. In a sheet-feeder, a feed-board. a main head slidably a pivotedsupply table superimposed above the feed-board and supported by swinging arms pivoted on the main'head, sheet conveyor frames p'ivotally arranged on the main head and adapted to swing upwardly into I said main head when engagement with the supply table. sheetgripping devices operating in said conveyor frames, but movable within and carried by said frames are swung and means to advance and withhead on the feed-board while supply table by upwardly, draw the main raising and lowering the said arms and conveyor main head and feed-board.

9. In a sheet-feeder, a feed-board, a. main head upon which the sheet feeding devices are mounted,- said head being slidably supported on the feed-board, one or more racks secured to the main head and extending rear wardly over the feed-board, a rotatable shaft journalled over the rear end of the feed board and gears on the shaft engaging with said racks to advance and withdraw said main head only on the feed-board.

10. In a sheet-feeder, a feed-board,a main head upon which the sheet feeding devices are mounted, said head being slidably supported on the feed-board, a pivoted supply table over the feed-board, a pair of swinging supported on. the feed-board,.

frames over saidarms pivoted to said supply table and main head, one or more racks secured to the main head and extending rearwardly over the feed-board, a rotatable shaft journalled over the rear end ofvthe feed-board and gears on the shaft engaging with said racks to advance and withdraw said main head on the feed-board while actuating said arms over v upwardly into engagement with said supply table.

12. In a sheet-feeder, a feed-board, amain head slidably supported thereon, a pivoted supply table over said feed-board, means comprising a rack and rotatable pinion mechanism arranged bctween the feed-board and supply table to advance and withdraw said head on said feed-board, sheet conveyor frames pivotally' arranged on the main head I and supported on said feed-board, said frames being adapted to swing upwardly off the feed-board into engagement with the supply tabla-sheet gripping devices operating in said conveyor frames but movable within and carried by said main head when said frames are swung u-pwardlyinto engagement with said supply table.

13. Ina sheet-feeder, a feed-board, a main head slidably supported on the feedboard,- and means to advance and withdraw the mainhead only on said feed-board.

14. In a sheet-feeder, a feed-board, a main head slidably supported on the feedboard, and means secured to the rear end of the feed-bo=ird to advance and withdraw the main head only on said feed-board.

15. In a sheet-feeder,- a feed-board,amain head carrying sheet-feeding devices and slidably supported on the feed-board, andmeans to advance and withdraw the main .ably supported on the feed-board, and means secured to the rear end of the fcedboard to advance and withdraw the main head only on said feed-board. y

17. In a sheet-feeder, a feed-board, a main head slidably supported on the. feed-board,-

sheet conveyor frames pivotally arrangedon the mainhead to swing upwardly; andmeans v to advance and withdrawthe main head only on said -feed-board.

18. In a sheet-feeder, a feed-boardmmain head slidably supported on the feed-board, sheet conveyor frames pivotally arranged on the main head to swing upwardl and means I secured to the rear end of the eed-board to advance and withdraw the main head only on said feed-board. I i

19. In a sheet-feeder, a feed-board, a main head slidably supported on the feed-board,

and means comprising a rack and rotatable pinion mechanism arranged between the rear end of the feed-boa'rd'and the main head only to advance and withdraw;- the main head on said feed-board.

20. In a sheet-feeder, a feed-board, a main head slidably supported on the feed-board,

of the feed-board and the main head only to, advance and withdraw the main head on said feed-board. r

so 22. Infasheet-feeder, a feed-board, a main head carrying sheet-feeding devices and slidably supported oil-the feed-board, and means comprising. a rack and rotatable pinion mechanism arranged between, and secured to, the refirendpflthe feed-board and the main head "to' advance and withdraw the 'main head only on said feed-board.

23. In a sheet-feeder, a feed-board, a main head slidabl supported thereon, means to advance an withdraw said head only on said feed-board, sheet-conveyor frames pivotally arranged on the main head to swing upwardly, and sheet-gripping devices operating-in said conveyor frames but movable withln and carried by said main head when said frames are swung upwardly.

slidably supported thereon, means secured to the rear end of the feedboard to advance and withdraw said head only on said feed-board, sheet-conveyorframes pivotally arranged on the main head to swing upwardly, and sheet-gripping de-- vices operating in said conveyor frames but movable within and carried by said main cured to the rear endof the feed-board to advance and withdraw said head only on.

said feed-board, sheet-conveyor frames pivotally arranged on the main head to swing upwardly, and sheet-gripping devices opersheet-conveying ating insaid conveyor frames but movable Within and carried by Said main head when said frames are swung upwardly.

26. In a sheet-feeder, a feed-board, grippers recipro'catable over said feed-board, and means to simultaneously raise and advance said grip persafter having. seized 'the sheet at the beginning of their forward movement.

27. In a sheet-feeder, a feed-board, sheet conveying grippers reciprocatable over said feed-board, means to raise the sheetconveying grippers to float the sheet over the feedboard in their forward movement and means to lower said conveying grippers, before the end of said movement. I i

28. In a sheet-feeder, a feed-board, sheet conveying grippers reciprocatable over said feed-board, means to raise'the sheet-conveying grippers to float the sheet over the feed-board in their forward movement and means to gradually lower said conveying grippers before the end of said movement. 29. In a sheet-feeder, a feed-board, sheet- .conveying grippers reciprocatable over said feed board, means to lower the grippers to 'seize the sheet, 'and'meansthereafter to raise and advance said grippers with the seized sheet to float the latter over the feed-boardin their forward movement. I H

1 30. In a sheet-feeder,- a'feed-board, sheetconveying grippers reciprocatable over. said 7 feed-board, means to lower the grippers to seize the sheet at a state of rest in the beginning of acycle, and means thereafter to raise and advance said grippers with the board in their forward movement.

31. In a sheet-feeder, sheet-conveying de-- vices provided with grippers, means to lower said grippers to seize the sheet at a state of restand then simultaneously raise and advance the grippers with the seized isheet, and means to actuate said devices at a-uniform retarded speed as the sheet ends 'its'iforward movement. 24,111 a sheet-feeder, .a feed-board, a, V main head a uniform retarded speed while lowering.

' seized sheet to float the latter over the feedsheet, and means to actuate said-devices at same as the sheet endsits 'forward1movement. 5

33. In a sheet-feeder, front stops,fsheet conveying devices provided with grippers lowrable to seize the sheet at siiistate of rest).

and means to actuate said-devices first at an accelerated speed and then delivering same at a uniform retarded speed to th e fro'ntstops.

.34. In a sheet-feeder, front stops, sheet conveying devices provided with gripper misses I Q Iow'erable to seize the sheet at a state of rest and then raise the leading edge, and means to actuate said devices first at an accelerated speed and then delivering same at a uniform retar'ded'speed to the-front stops.

.35. In a sheet-feeder, front stops, sheet conveying devices provided with grippers lowerahle to seize the sheet at a state of rest and then raise the leading edge, and means. to actuate said devices first at an accelerated speed and then delivering same at a uniform retarded speed while lowering same to ,the front stops v I 36. In'ja sheet-feeder, front stops, sheet-- carrying devices provided with outer and inner sets of grippers to seize the sheet, means.

'stops. p p

. 37. In a sheet-feeder, f ont stops, sheet to raise and niove said grippers in unison to carry the sheet to the stops, means to lower said grippers and open the outer set as the sheet reaches said stops while allowing the inner set to slide ed the sheet beyond the conveying devices provided with two pairs of grippers, one pair adjacent said stops and the other removed therefrom, to seize the sheet at a state of rest and raise some, means to actuatesaid' devices to forward the sheet to the stops, and means to lower said grippers and open the second pair or grippers as the sheet reaches the stops while allowing grippers and open the second pair of grippers as the sheet reaches the stops while allowing the first pair to slide offthe sheet under light pressure against said-stops s I 39. In a sheet--feeder,"front stops, sheetoonveying devices provided with outer and to hold said sheet in'ner sets of grippers to carry the sheets to the stops, and means to open the outer grippers as the sheet reaches the stops while allowing the inner set to slide oi? the sheet beyond the stops. Q

d0. In a sheet-feeder,-front stops, sheetconveying devices provided with outer and inner sets of grippers to carry the sheets to the stops, and means to open the outer grippers before the sheet reaches the stops while allowing the inner set to slide ofi the sheet beyond the stops. s

shrine w. sirnrioorin. 

